A system includes a camera having a field of view, a cleaning apparatus positioned to clean the camera, and a computer communicatively coupled to the camera and the cleaning apparatus. The computer is programmed to detect an obstruction on the camera based on sensing a trajectory of an external light source relative to the field of view in data from the camera, and upon detecting the obstruction, activate the cleaning apparatus.

A sensor system includes a sensor including a sensor window; a nozzle aimed at the sensor window; a supply line to supply fluid to the nozzle; a primary reservoir to supply fluid to the supply line; a first valve actuatable to inject fluid from a first reservoir into the supply line; a second valve actuatable to inject fluid from a second reservoir into the supply line; a third valve actuatable to inject fluid from a third reservoir into the supply line; and a computer communicatively coupled to the sensor and the valves. The computer is programmed to actuate the first valve in response to determining a first condition based on data from the sensor, actuate the second valve in response to determining a second condition based on data from the sensor, and actuate the third valve in response to determining a third condition based on data from the sensor.

This technology relates to system for clearing a sensor cover. The system may include a sprayer, a support, and a positioning device. The sprayer may be mounted to the support and direct a flow of fluid to the sensor cover. The positioning device may be configured to adjust the position of the sprayer on the support. The system may include a nozzle and the nozzle may be positioned to direct the flow of fluid to an area of the sensor cover. The system may include additional sprayers.

Various embodiments relate to sensing defects associated with a window. Furthermore, various embodiments relate to performing image processing to produce a corrected image of a scene based at least partly on data corresponding to the detected defects. In some examples, one or more lighting modules may be used to illuminate the window to facilitate detection of the defects by one or more sensor devices.

A vehicle cleaner system includes a front LiDAR and a front camera, which are external sensors that acquire information on an outside of a vehicle, a cleaner unit, a front tank that stores the cleaning liquid, and a cleaner control unit that controls the cleaner unit. The cleaner unit includes a front LiDAR cleaner that discharge the cleaning liquid to clean the front LiDAR, and a front camera cleaner that discharges the cleaning liquid to clean the front camera. The cleaner control unit is configured to be capable of outputting a remaining amount insufficiency prediction signal to a vehicle control unit, which controls traveling of the vehicle, when the cleaning liquid in the front tank is equal to or less than a predetermined amount.

This technology relates to system for clearing a sensor cover. The system may include a sprayer, a support, and a positioning device. The sprayer may be mounted to the support and direct a flow of fluid to the sensor cover. The positioning device may be configured to adjust the position of the sprayer on the support. The system may include a nozzle and the nozzle may be positioned to direct the flow of fluid to an area of the sensor cover. The system may include additional sprayers.

An imaging device images rearward of a vehicle through a windshield from inside a cabin of the vehicle, and a vehicle washing device includes a wiping device and a controller. The wiping device is capable of reciprocatingly wiping a predetermined range of the windshield. The predetermined range of the windshield includes an imaging range for the imaging device. The controller switches operation of the wiping device to one of a first mode or a second mode in accordance with an input. In the first mode, the wiping device wipes the predetermined range of the windshield. In the second mode, the wiping device wipes the imaging range of the windshield preferentially compared to the first mode.

A vehicle and/or a method for detecting contaminants on an optical surface are provided. The vehicle includes at least one light source adjacent the optical surface and at least one light detector at an edge of the optical surface. A controller is configured to introduce light from at least one light source into the optical surface, and to measure light at the edge of the optical surface with at least one detector. The controller compares the measured light to a threshold, and, if the measured light crosses the threshold, triggers or implements a response action.

A vehicle cleaner system includes: a cleaner unit configured to be mounted on a vehicle and to discharge a cleaning medium to an external sensor that acquires information outside the vehicle so as to clean the external sensor; and a cleaner control unit configured to control the cleaner unit. The cleaner control unit is configured to acquire weather information, and control the cleaner unit such that at least one of a type of the cleaning medium, a discharge amount of the cleaning medium, the number of times of discharge of the cleaning medium, the number of times of discharge of the cleaning medium per unit time, and a discharge time of the cleaning medium varies according to the weather information.

A device is described for protecting a sensor window. The device includes a two-piece nozzle system and is configured for generating a first and a second fluid flow, a first piece of the two-piece nozzle system being fixedly situated with respect to the sensor window, and a second piece of the two-piece nozzle system being configured for assuming different positions with respect to the first piece of the two-piece nozzle system, and the two-piece nozzle system being aligned with respect to the sensor window to direct a predominant portion of the first fluid flow in parallel to the sensor window and to direct a predominant portion of the second fluid flow in the direction onto the sensor window.